液体火箭发动机喷管流动特性及高度补偿研究进展

刘亚洲; 李平; 杨建文

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液体火箭发动机喷管流动特性及高度补偿研究进展
刘亚洲¹，李平²，杨建文¹
1.西安航天动力研究所，液体火箭发动机技术重点实验室，陕西西安 710100;2.航天推进技术研究院，陕西西安 710100

摘要:

喷管作为液体火箭发动机产生推力的重要组件之一，其内部存在的复杂流动现象对发动机性能具有重要影响。本文综述了该领域的相关研究进展。传统喷管在过膨胀状态下会产生自由激波和受限激波两种分离模式，其非定常、非对称性给发动机带来严重的侧向载荷，也造成流动预测较为困难。采用凹坑或涡轮废气主动射流等方式能够避免受限激波分离的出现，抑制侧向载荷，但却无法对喷管损失的性能进行有效补偿。通过对传统喷管的创新设计，高度补偿喷管不仅能够有效控制管内流动，还能在不同程度上提升发动机性能。然而，高度补偿喷管形式众多、各有所长，工程应用应谨慎决策。此外，各种形式的高度补偿喷管内仍旧存在激波/边界层干扰、分离、回流等不利的流动现象，亟待对其开展深入研究。

关键词: 液体火箭发动机传统喷管高度补偿喷管过膨胀流动分离侧向载荷

DOI：10.13675/j.cnki.tjjs.200280

分类号:V434

基金项目:液体火箭发动机技术重点实验室开放基金（HTKJ2020KL011005）。

Progress of Flow Characteristics and Altitude Compensation in Liquid Rocket Engine Nozzle

LIU Ya-zhou¹, LI Ping², YANG Jian-wen¹

1.Science and Technology on Liquid Rocket Engine Laboratory，Xi’an Aerospace Propulsion Institute，Xi’an 710100，China;2.Academy of Aerospace Propulsion Technology，Xi’an 710100，China

Abstract:

Nozzle is one of the important components of the liquid rocket engine that mainly produces thrust， complex flows of which have significant impact on the engine performance. The related research achievements in this field are reviewed. Under over-expanded condition， two distinctive flow separation phenomena of free shock and restricted shock separation are existed in conventional nozzles， which are unsteady and asymmetry， bring dramatic side loads to engine， and also make flow prediction more difficult. By using cavity or turbine exhaust gas injector， the restricted shock separation in conventional nozzle is avoided， and the side loads are limited， but lost performance are not effectively compensated. By innovatively designing conventional nozzle contours， altitude compensative nozzle can not only effectively control separation flow in conventional nozzle， but also improve the engine performance in varying degrees. However， there are so many types of altitude compensative nozzles which have their own strong points， applying them to engine should be carefully decided. Furthermore， harmful flow phenomena such as shock wave/boundary layer interaction， separation and recirculation are still existed in altitude compensative nozzles， which are needed to be deeply investigated in the future.

Key words: Liquid rocket engines Conventional nozzles Altitude compensation nozzles Over expansion Flow separation Side-loads